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Table of Contents Chapter: Exploring Space Section 1: Radiation From Space Section 2: Early Space Missions Section 3: Current and Future Space Missions Radiation From Space 1 Electromagnetic Waves • With the help of telescopes like Hubble, we can see far into space, but if you’ve ever thought of racing toward distant parts of the universe, think again. • Even at the speed of light it would take many years to reach even the nearest stars. Radiation From Space 1 Light from the Past • Although light travels fast, distances between objects in space are so great that it sometimes takes millions of years for the light to reach Earth. • It takes 8 minutes for light from the Sun to reach Earth. • It takes 640 light-years for Betelgeuse's, the second largest star in the constellation in Orion, light to reach Earth. Radiation From Space 1 Light from the Past • Radiation is energy that is transmitted from one place to another by electromagnetic waves. • Electromagnetic waves carry energy through empty space and through matter. Radiation From Space 1 Electromagnetic Radiation • When astronauts speak into a microphone, the sound waves are converted into electromagnetic waves called radio waves. • The radio waves travel through space and through Earth’s atmosphere. Radiation From Space 1 Electromagnetic Radiation • Radio waves and visible light from the Sun are just two types of electromagnetic radiation. • Other types include gamma rays, X rays, ultraviolet waves, infrared waves, and microwaves. Radiation From Space 1 Electromagnetic Radiation • The arrangement of electromagnetic radiation is called the electromagnetic spectrum. Radiation From Space 1 Speed of Light • Although the various electromagnetic waves differ in their wavelengths, they all travel at 300,000 km/s in a vacuum. • This is called the speed of light. • Visible light and other forms of electromagnetic radiation travel at this incredible speed. Radiation From Space 1 Optical Telescopes • Optical telescopes use light to produce magnified images of objects. • Light is collected by an objective lens or mirror, which then forms an image at the focal point of the telescope. • The eyepiece lens then magnifies the image. Radiation From Space 1 Optical Telescopes • A refracting telescope uses convex lenses, which are curved outward like the surface of a ball. • Light from an object passes through a convex objective lens and is bent to form an image at the focal point. Radiation From Space 1 Optical Telescopes • A reflecting telescope uses a curved mirror to direct light. Radiation From Space 1 Optical Telescopes • Light strikes a concave mirror, which is curved inward like a bowl and located at the base of the telescope. • The light is reflected off the interior surface of the bowl to the focal point where it forms an image. Radiation From Space 1 Using Optical Telescopes • Most optical telescopes used by professional astronomers are housed in buildings called observatories. • Observatories often have dome-shaped roofs that can be opened up for viewing and they house telescopes. Radiation From Space 1 Hubble Space Telescope • The Hubble Space Telescope was launched in 1990 by the space shuttle Discovery. • In December 1993, a team of astronauts repaired the Hubble Space Telescope by installing a set of small mirrors designed to correct images obtained by the faulty mirror. Radiation From Space 1 Hubble Space Telescope • Two more missions to service Hubble were carried out in 1997 and 1999. • Among the objects viewed by Hubble after it was repaired in 1999 was a large cluster of galaxies known as Abell 2218. Radiation From Space 1 Large Reflecting Telescopes • The twin Keck reflecting telescopes have segmented mirrors 10 m wide. • Until 2000, these mirrors were the largest reflectors ever used. Radiation From Space 1 Large Reflecting Telescopes • In 2000, the European Southern Observatory’s telescope, in Chile, consisted of four 8.2-m reflectors, making it the largest optical telescope in use. Radiation From Space 1 Active and Adaptive Optics • With active optics, a computer corrects for changes in temperature, mirror distortions, and bad viewing conditions. • Adaptive optics uses a laser to probe the atmosphere and relay information to a computer about air turbulence. • In 2000, the European Southern Telescope images are clearer when corrections for air turbulence, temperature changes, and mirrorshape changes are made. Radiation From Space 1 Radio Telescopes • A radio telescope is used to study radio waves traveling through space. • Unlike visible light, radio waves pass freely through Earth’s atmosphere. • Because of this, radio telescopes are useful 24 hours per day under most weather conditions. Radiation From Space 1 Radio Telescopes • Radio waves reaching Earth’s surface strike the large, concave dish of a radio telescope. • This dish reflects the waves to a focal point where a receiver is located. Section Check 1 Question 1 Which type of telescope uses convex lenses to form images? A. Keck B. radio C. reflecting D. refracting Section Check 1 Question 2 What was wrong with the Hubble Space Telescope? Section Check 1 Question 3 What else do you think could go wrong with sending space probes and satellites into space? Early Space Missions 2 The First Missions into Space— Rockets • To break free of gravity and enter Earth’s orbit, spacecraft must travel at speeds greater than 11 km/s. That is 17,500 miles per hour. • The space shuttle and several other spacecrafts are equipped with special engines that carry their own fuel. Early Space Missions 2 Rockets • Rockets are engines that have everything they need for the burning of fuel. • They don’t even require air to carry out the process. Therefore, they can work in space, which has no air. Early Space Missions 2 Rocket Types • Two types of rockets are distinguished by the type of fuel they use. • Solid-propellant rockets are generally simpler but they can’t be shut down after they are ignited. • Liquid-propellant rockets can be shut down after they are ignited and can be restarted. Early Space Missions 2 Rocket Launching • Solid-propellant rockets use a rubberlike fuel that contains its own oxidizer. • As the solid propellant burns, hot gases exert pressure on all inner surfaces of the tube. Early Space Missions 2 Rocket Launching • The tube pushes back on the gas except at the nozzle where hot gases escape. • Thrust builds up and pushes the rocket forward. Early Space Missions 2 Rocket Launching • Liquid-propellant rockets use a liquid fuel and an oxidizer, such as liquid oxygen stored in separate tanks. • To ignite the rocket, the oxidizer is mixed with the liquid fuel in the burning chamber. • As the mixture burns, forces are exerted and the rocket is propelled forward. Early Space Missions 2 Satellites • A satellite is any object that revolves around another object. • Earth’s gravity pulls a satellite toward Earth. • The result of the satellite traveling forward while at the same time being pulled toward Earth is a curved path, called an orbit. Early Space Missions 2 Satellite Uses • Today, thousands of artificial satellites orbit Earth. • Communication satellites transmit radio and television programs to locations around the world. • Other satellites gather scientific data. • Weather satellites constantly monitor Earth’s global weather patterns. Early Space Missions 2 Space Probes • A space probe is an instrument that gathers information and sends it back to Earth. • Unlike satellites that orbit Earth, space probes travel into the solar system. • Some even have traveled to the edge of the solar system. Early Space Missions 2 Space Probes • Space probes, like many satellites, carry cameras and other data-gathering equipment, as well as radio transmitters and receivers that allow them to communicate with scientists on Earth. Early Space Missions 2 Voyager and Pioneer Probes • Pioneer 10, launched in 1972, was the first probe to survive a trip through the asteroid belt and encounter an outer planet, Jupiter. • The probe carries a gold medallion with an engraving of a man, a woman, and Earth’s position in the galaxy. http://www.space.com/17456voyager-1-spacecraft-solarsystem-edge.html Early Space Missions 2 Galileo • Launched in 1989, Galileo reached Jupiter in 1995. • Galileo released a smaller probe that began a five-month approach to Jupiter. • Before being crushed by the atmospheric pressure, it transmitted information about Jupiter’s composition, temperature, and pressure to the satellite orbiting above. Early Space Missions 2 Galileo • Studies of Jupiter’s moon Europa by Galileo indicate than an ocean of water may exist under the surface of Europa. • A cracked outer layer of ice makes up Europa’s surface. Early Space Missions 2 Galileo • The cracks in the surface of Europa may be caused by geologic activity that heats the ocean underneath the surface. • Sunlight penetrates these cracks, further heating the ocean and setting the stage for the possible existence of life on Europa. Early Space Missions 2 Galileo • In October and November of 1999, Galileo approached Io, another one of Jupiter’s moons. It took photographs of a volcanic vent named Loki. • Galileo also discovered eruption plumes that shoot gas made of sulfur and oxygen. Early Space Missions 2 Moon Quest • The U.S. program to reach the Moon began with Project Mercury. • The program provided data and experience in the basics of space flight. • On May 5, 1961, Alan B. Shepard became the first U.S. citizen in space. • In 1962, Mercury astronaut John Glenn became the first U.S. citizen to orbit Earth. Early Space Missions 2 Project Gemini • The next step in reaching the Moon was called Project Gemini. • Teams of two astronauts in the same Gemini spacecraft orbited Earth. • One Gemini team met and connected with another spacecraft in orbit—a skill that would be needed on a voyage to the Moon. Early Space Missions 2 Project Gemini • In addition to connecting spacecraft in orbit, another goal of Project Gemini was to investigate the effects of space travel on the human body. • Along with the Mercury and Gemini programs, a series of robotic probes was sent to the Moon. Early Space Missions 2 Project Gemini • Ranger proved that a spacecraft could be sent to the Moon. • In 1966, Surveyor landed gently on the Moon’s surface, indicating that the Moon’s surface could support spacecraft and humans. Early Space Missions 2 Project Apollo • The final stage of the U.S. program to land on the Moon was Project Apollo. • On July 20, 1969, Apollo 11 landed on the Moon’s surface. • Neil Armstrong was the first human to set foot on the Moon. Early Space Missions 2 Project Apollo • Edwin Aldrin, the second of the three Apollo 11 astronauts, joined Armstrong on the Moon, and they explored its surface for two hours. • A total of six lunar landings brought back more than 2,000 samples of moon rock and soil for study before the program ended in 1972. Section Check 2 Question 1 Which cannot be shut down after it is ignited? A. Galileo B. Liquid-propellant rocket C. Solid-propellant rocket D. Voyager Section Check 2 Question 2 Any object that revolves around another object is a(n) _______. A. orbit B. probe C. rocket D. satellite Section Check 2 Question 3 The goal of Project Mercury was to ________. A. design a reusable spacecraft B. land on the Moon C. orbit a piloted spacecraft around Earth D. repair the space station Mir Current and Future Space Missions 3 The Space Shuttle—A Reusable Spacecraft • The reusable spacecraft that transports astronauts, satellites, and other materials to and from space is called the space shuttle. • At launch, the space shuttle stands on end and is connected to an external liquid-fuel tank and two solid-fuel booster rockets. Current and Future Space Missions 3 Work on the Shuttle • After the space shuttle reaches space, it begins to orbit Earth. • In the cargo bay, astronauts can conduct scientific experiments and determine the effects of spaceflight on the human body. Current and Future Space Missions 3 Work on the Shuttle • The shuttle also can launch, repair, and retrieve satellites. • After a mission, the shuttle glides back to Earth and lands like an airplane. Current and Future Space Missions 3 Space Stations • A space station has living quarters, work and exercise areas, and all the equipment and support systems needed for humans to live and • In 1973, the United States launched the work in space. space station Skylab. • Crews of astronauts spent up to 84 days there, performing experiments and collecting data on the effects on humans of living in space. Current and Future Space Missions 3 Space Stations • Crews from the former Soviet Union have spent more time in space, onboard the space station Mir, than crews from any other country. • Cosmonaut Dr. Valery Polyakov returned to Earth after 438 days in space studying the long-term effects of weightlessness. Current and Future Space Missions 3 Cooperation in Space • In June 1995, Russian cosmonauts rode into orbit onboard the space shuttle Atlantis. • The cooperation that existed on this mission continued through eight more space shuttleMir docking missions. • Each of the eight missions was an important step toward building and operating the International Space Station. Current and Future Space Missions 3 The International Space Station • The International Space Station (ISS) will be a permanent laboratory designed for longterm research projects. • The ISS will draw on the resources of 16 nations. Current and Future Space Missions 3 The International Space Station • These nations will build units for the space station, which then will be transported into space onboard the space shuttle and Russian launch rockets. Current and Future Space Missions 3 Phases of ISS • Phase One, now concluded, involved the space shuttle-Mir docking missions. • Phase Two began in 1998 with the launch of the Russian-built Zarya Module. Current and Future Space Missions 3 Phases of ISS • In December 1998, the first assembly of ISS occurred when a space shuttle mission attached the Unity module to Zarya. • Phase Two ended in 2001 with the addition of a U.S. laboratory. Current and Future Space Missions 3 Living in Space • The project was continued with Phase Three when the Japanese Experiment Module, the European Columbus Orbiting Facility, and another Russian lab will be delivered. • One day, the station could be a construction site for ships that will travel to the Moon and Mars. Current and Future Space Missions 3 Exploring Mars • Two of the most successful missions in recent years were the 1996 launchings of the Mars Global Surveyor and the Mars Pathfinder. • Surveyor orbited Mars, taking high-quality photos of the planet’s surface. Current and Future Space Missions 3 Exploring Mars • Pathfinder descended to the Martian surface, using rockets and a parachute system to slow its descent. • Pathfinder carried technology to study the surface of the planet, including a remotecontrolled robot rover called Sojourner. Current and Future Space Missions 3 Exploring Mars • Another orbiting spacecraft, the Mars Odyssey began mapping the surface of Mars in 2002. Current and Future Space Missions 3 Exploring Mars • Twin rovers named Spirit and Opportunity were launched in 2003 with schedules to reach their separate destinations on Mars in January 2004. It was launched on November 26, 2011. It landed August on Mars 12:32 p.m. Aug. 5, 2012. Current and Future Space Missions 3 Exploring the Moon • Launched in 1998, the Lunar Prospector’s one-year mission was to orbit the Moon, mapping its structure and composition. • Data obtained from the spacecraft indicate that water ice might be present in the craters at the Moon’s poles. Current and Future Space Missions 3 Exploring the Moon • At the end of its mission, Lunar Prospector was deliberately crashed into a lunar crater. • Using special telescopes, scientists hoped to see evidence of water vapor thrown up by the collision. Current and Future Space Missions 3 Cassini • In October 1997, NASA launched the space probe Cassini. • This probe’s destination is Saturn. Cassini did not reach its goal until 2004. • At that time, the space probe will explore Saturn and surrounding areas for four years. It is actually still taking and receiving pics from Saturn. Current and Future Space Missions 3 The Next Generation Space Telescope • Plans are being made to launch a new space telescope that is capable of observing the first stars and galaxies in the universe. • The James Webb Space Telescope will be the successor to the Hubble Space Telescope. Current and Future Space Missions 3 The Next Generation Space Telescope • As part of the Origins project, it will provide scientists with the opportunity to study the evolution of galaxies, the production of elements by stars, and the process of star and planet formation. Current and Future Space Missions 3 The Next Generation Space Telescope • NASA hopes to launch the James Webb Space Telescope as early as 2010. But because of the economy and cuts in NASA this telescope has been placed on hold. Current and Future Space Missions 3 Everyday Space Technology • Medicine has gained much from space technology. • Space medicine led to better ways to diagnose and treat heart disease here on Earth and to better heart pacemakers. • Cochlear implants that help thousands of deaf people hear were developed using knowledge gained during the space shuttle program. Current and Future Space Missions 3 Everyday Space Technology • Space technology can even help catch criminals and prevent accidents. • For example, a method to sharpen images that was devised for space studies is being used by police to read numbers on blurry photos of license plates. Section Check 3 Question 1 Which was a space station? A. Galileo B. Pioneer 10 C. Skylab D. Sputnik I Section Check 3 Question 2 The destination of the space probe Cassini is __________. A. Jupiter B. Neptune C. Pluto D. Saturn Section Check 3 Question 3 The remote-controlled robot that was used to collect data about the surface of Mars was ________. A. Odyssey B. Pathfinder C. Sojourner D. Surveyor Help To advance to the next item or next page click on any of the following keys: mouse, space bar, enter, down or forward arrow. Click on this icon to return to the table of contents Click on this icon to return to the previous slide Click on this icon to move to the next slide Click on this icon to open the resources file. Click on this icon to go to the end of the presentation. End of Chapter Summary File